Fluid Mechanics | Video Lectures From Academic Earth

Classical Mechanics VI

Stanford / Physics
Leonard Susskind

Lecture 6 of Leonard Susskind's Modern Physics course concentrating on Classical Mechanics. Recorded November 19, 2007 at Stanford University.

Classical Mechanics VII

Stanford / Physics
Leonard Susskind

Lecture 7 of Leonard Susskind's Modern Physics course concentrating on Classical Mechanics. Recorded November 26, 2007 at Stanford University.

Classical Mechanics VIII

Stanford / Physics
Leonard Susskind

Lecture 8 of Leonard Susskind's Modern Physics course concentrating on Classical Mechanics. Recorded December 17, 2007 at Stanford University.

Common Mistakes Stumbled Upon: 'I'terator

Stanford / Computer Science
Julie Zelenski

Stumbled Upon: 'I'terator, Common Mistakes Stumbled Upon: Concatenating Strings, Solving Problems Recursively, Functional Recursion, Example of Recursion: Calculating Raise to Power, Demo of "Raise to the Power Example" Through Live Coding, Mechanics of What s Going to Happen in Recursion, More Efficient Recursion, Being Wary of Too Many Base Cases, Recursion & Efficiency, Example: Palindromes, Example: Binary Search, Binary Search Code W...more

Conformational Energy and Molecular Mechanics

Yale / Chemistry
J Michael McBride

Understanding conformational relationships makes it easy to draw idealized chair structures for cyclohexane and to visualize axial-equatorial interconversion. After quantitative consideration of the conformational energies of ethane, propane, and butane, cyclohexane is used to illustrate the utility of molecular mechanics as an alternative to quantum mechanics for estimating such energies. To give useful accuracy this empirical scheme requ...more

Course Introduction and Newtonian Mechanics

Yale / Physics
Ramamurti Shankar

Professor Shankar introduces the course and answers student questions about the material and the requirements. He gives an overview of Newtonian mechanics and explains its two components: kinematics and dynamics. He then reviews basic concepts in calculus through two key equations: x0 + v0t + Â½ at2 and v2 = v02+ 2 a (x-x0), tracing the fate of a particle in one dimension along the x-axis.

Cranial Meninges, Dural Venous Sinuses and Cerebrospinal Fluid

Michigan / Medicine & Healthcare
John Lillie

Cranial meninges, dural venous sinuses (cavernous sinus) and cerebrospinal fluid are shown in this dissection using a human cadaver. Orig. air date: MAY 16 77

Curl Part 2

Khan Academy / Philosophy
Salman Khan

The mechanics of calculating curl.

Digestive System IV; Hematology I

Berkeley / Biology
Marian Diamond

In this lecture, Professor Diamond continues her discussion of the liver before moving on to the pancreas and hematology. She first describes how the liver is composed of cells called hepatocytes organized into lobules with triads, which each contain a branch of the hepatic artery, a branch of the hepatic portal vein, and a bile duct. She then reviews the functions of the liver, including supporting digestion through bile production, dev...more

Fluid Dynamics and Statics and Bernoulli's Equation

Yale / Physics
Ramamurti Shankar

The focus of the lecture is on fluid dynamics and statics. Different properties are discussed, such as density and pressure. The Archimedes' Principle is introduced and demonstrated through a number of problems. The final topic of the lecture is Bernoulli's Equation.

Foundations of Modern Physics

Stanford / Physics
Leonard Susskind

This Stanford Continuing Studies course is a six-quarter sequence of classes exploring the essential theoretical foundations of modern physics. The topics covered in this course focus on classical mechanics, quantum mechanics, the general and special theories of relativity, electromagnatism, cosmology, black holes and statistical mechanics. While these courses build upon one another, each section of the course also stands on its own, and b...more

Fundamentals of Physics

Yale / Physics
Ramamurti Shankar

This course provides a thorough introduction to the principles and methods of physics for students who have good preparation in physics and mathematics. Emphasis is placed on problem solving and quantitative reasoning. This course covers Newtonian mechanics, special relativity, gravitation, thermodynamics, and waves.